Advanced Separation Technologies and Chemometric Data Processing for Macromolecular Materials and Metabolite Profiling. The project will develop innovative separation technologies for specialised materials, which could lead the scientific export industry in Australia, with employment benefits to the community. Partner, Dow has links with researchers around the world, and this project will allow Australian researchers to access the network of Dow laboratories and projects and develop a long-term ....Advanced Separation Technologies and Chemometric Data Processing for Macromolecular Materials and Metabolite Profiling. The project will develop innovative separation technologies for specialised materials, which could lead the scientific export industry in Australia, with employment benefits to the community. Partner, Dow has links with researchers around the world, and this project will allow Australian researchers to access the network of Dow laboratories and projects and develop a long-term relationship. The analysis methods to be developed will focus on metabolite profiling which has relevance to a broad range of biological monitoring activities from human health, to plant genetics and breeding. New generation polymer materials will be characterised by using the new techniques developed. The methods will be platform technologies for future studies eg. anti-terrorism bio- and chemo-monitoring.Read moreRead less
The Synthesis and Analysis of Certain Explosives and Illicit Drugs for Improved Forensic Detection. There is an increasing demand within law enforcement agencies, worldwide, for selective and sensitive methods for the determination of illicit substances. Over the last decade Deakin University chemists have played a major role in establishing the utility of chemiluminescent reactions for the determination of a variety of pharmaceutical opiates in process streams. This project seeks to build upon ....The Synthesis and Analysis of Certain Explosives and Illicit Drugs for Improved Forensic Detection. There is an increasing demand within law enforcement agencies, worldwide, for selective and sensitive methods for the determination of illicit substances. Over the last decade Deakin University chemists have played a major role in establishing the utility of chemiluminescent reactions for the determination of a variety of pharmaceutical opiates in process streams. This project seeks to build upon these successes, in order to develop innovative analytical strategies for forensic detection of certain illicit drugs and explosives. The results of this research have the potential to revolutionise key aspects of forensic analysis.Read moreRead less
Development of novel passive sampling devices for ammonia monitoring. This project will develop novel inexpensive passive samplers for ammonia which is an indicator for faecal contamination in stormwater. These devices will increase dramatically the efficiency in isolating intermittent faecal contamination sources in drainage networks by eliminating the need for extensive manual sampling and inspection operations.
Marine oil seeps and airborne particulates characterisation for organic compositional fingerprinting by using novel gas chromatographic technologies. Comprehensive two-dimensional gas chromatography (GCxGC) is a powerful new tool for studying complex organic materials. The technique provides a highly sensitive method of fingerprinting not only the composition of the material but also its environmental history and behaviour. In this project the technique will be applied to a range of petroleum- ....Marine oil seeps and airborne particulates characterisation for organic compositional fingerprinting by using novel gas chromatographic technologies. Comprehensive two-dimensional gas chromatography (GCxGC) is a powerful new tool for studying complex organic materials. The technique provides a highly sensitive method of fingerprinting not only the composition of the material but also its environmental history and behaviour. In this project the technique will be applied to a range of petroleum-related organic samples, including oil seeps from the ocean floor, and airborne particulates contributing to air pollution. The research will lead to a better understanding of geochemistry of petroleum-related materials and their potential impact on the environment and on public health.Read moreRead less
The Effective Treatment of Hot Dip Galvanizing Effluent Streams. Hot Dip galvanizing effluent represents a significant environmental hazard. This wastewater is currently trucked offsite and treated by contractors to precipitate a heavy metal sludge that is disposed of through landfill. Industrial Galvanisers, as the largest hot dip galvanizing company within Australia, are keen to eliminate this hazard. We will consider the use of an innovative membrane based process for this purpose; to recover ....The Effective Treatment of Hot Dip Galvanizing Effluent Streams. Hot Dip galvanizing effluent represents a significant environmental hazard. This wastewater is currently trucked offsite and treated by contractors to precipitate a heavy metal sludge that is disposed of through landfill. Industrial Galvanisers, as the largest hot dip galvanizing company within Australia, are keen to eliminate this hazard. We will consider the use of an innovative membrane based process for this purpose; to recover valuable zinc and iron compounds from the effluent and allow the water to be re-utilised. If successful, this project will lead to a pilot plant wastewater treatment plant being constructed at an Industrial Galvanizers site.Read moreRead less
The Treatment Of Galvanizing Wastewater: Delivering An Environmentally And Economically Sustainable Approach. This project will investigate a process to treat wastewater from industrial galvanizing sites around Australia. When implemented, the process will substantially reduce the consumption of acid and fresh water at these sites. Further, the process will recover the zinc content of the wastewater in a saleable form and can also generate ferric chloride for sale as a water treatment chemical. ....The Treatment Of Galvanizing Wastewater: Delivering An Environmentally And Economically Sustainable Approach. This project will investigate a process to treat wastewater from industrial galvanizing sites around Australia. When implemented, the process will substantially reduce the consumption of acid and fresh water at these sites. Further, the process will recover the zinc content of the wastewater in a saleable form and can also generate ferric chloride for sale as a water treatment chemical. The quantity of heavy metals disposed to landfill will also be dramatically reduced. Scientific knowledge of multicomponent liquid-liquid equilibria will be of value to a wider range of solvent extraction processes including zinc and copper metal refining.Read moreRead less
Emulsion Stability and Solvent Extraction Equipment Design in the Pharmaceutical Industry. The project aims at developing reliable prediction of large scale performance of liquid extraction columns. This will be done through a study of the columns in operation at GlaxoSmithKline's operation at Port Fairy alkaloids plant. In addition a detailed study of the influence of impurities on the coalescence rate of liquid dispersions will be undertaken as this is an important rate limiting step in colu ....Emulsion Stability and Solvent Extraction Equipment Design in the Pharmaceutical Industry. The project aims at developing reliable prediction of large scale performance of liquid extraction columns. This will be done through a study of the columns in operation at GlaxoSmithKline's operation at Port Fairy alkaloids plant. In addition a detailed study of the influence of impurities on the coalescence rate of liquid dispersions will be undertaken as this is an important rate limiting step in column performance. The benefit to GlaxoSmithKline will be a more efficient and optimised plant. The benefit to Australian processing industries is a reliable method of relating small scale trials to full size column performance which is a significent problem in the minerals industry at present.Read moreRead less
Next Generation of Separation Equipment for Natural Product Extraction. The benefit to GlaxoSmithKline will be the potential to upgrade to a more efficient plant which is important for maintaining their competitive position in this global business. The benefit to other Australian processing industries will be an improved understanding of the performance of membrane contactors when used for natural product separation and more specifically a reliable method for controlling fouling in this type of ....Next Generation of Separation Equipment for Natural Product Extraction. The benefit to GlaxoSmithKline will be the potential to upgrade to a more efficient plant which is important for maintaining their competitive position in this global business. The benefit to other Australian processing industries will be an improved understanding of the performance of membrane contactors when used for natural product separation and more specifically a reliable method for controlling fouling in this type of equipment which is a currently a significant industry problem.Read moreRead less
Environmentally Sustainable Solvents for Natural Pharmaceutical Extraction Processes. Australia supplies 25 per cent of the world's pain relieving medicinal opiates which contributes to a $200 million export industry for Australia. The active pharmaceutical ingredients are extracted and purified at GlaxoSmithKline’s (GSK) Port Fairy processing plant using a solvent extraction based process. Together with GSK the project team aim to examine the use of environmentally sustainable bio-derived natur ....Environmentally Sustainable Solvents for Natural Pharmaceutical Extraction Processes. Australia supplies 25 per cent of the world's pain relieving medicinal opiates which contributes to a $200 million export industry for Australia. The active pharmaceutical ingredients are extracted and purified at GlaxoSmithKline’s (GSK) Port Fairy processing plant using a solvent extraction based process. Together with GSK the project team aim to examine the use of environmentally sustainable bio-derived natural solvents to replace the volatile organic compound (VOC) fossil fuels based solvents used in the current process. Due to environmental and health concerns associated with VOCs the development of alternative solvents will be of great benefit to not only GSK but a range of other processing industries that also use VOC based solvent extraction processes.Read moreRead less
Identification and isolation of new pharmaceutical opiate analogues: today's problems tomorrow's solutions. This project will identify and characterise the impurity profiles across opiate alkaloid production, which will enhance the development of manufacturing processes through the reduction of problem impurities and provide potential new drug substances from the isolation of other opiate derived concomitant species.